Part 2: Structural Steel DesignSTEEL BEAMS AND PLATE GIRDERS
Most Economic Section for a Beam with a Continuous Lateral Support
under a Uniform Load
Most Economic Section for a Beam with Intermittent Lateral Support
under Uniform Load
Design of a Beam with Reduced Allowable Stress
Design of a Cover-Plated Beam
Design of a Continuous Beam
Shearing Stress in a Beam — Exact Method
Shearing Stress in a Beam — Approximate Method
Moment Capacity of a Welded Plate Girder
Analysis of a Riveted Plate Girder
Design of a Welded Plate Girder
STEEL COLUMNS AND TENSION MEMBERS
Capacity of a Built-Up Column
Capacity of a Double- Angle Star Strut
Section Selection for a Column with Two Effective Lengths
Stress in Column with Partial Restraint against Rotation
Lacing of Built-Up Column
Selection of a Column with a Load at an Intermediate Level
Design of an Axial Member for Fatigue
Investigation of a Beam Column
Application of Beam-Column Factors
Net Section of a Tension Member
Design of a Double- Angle Tension Member
PLASTIC DESIGN OF STEEL STRUCTURES
Allowable Load on Bar Supported by Rods
Determination of Section Shape Factors
Determination of Ultimate Load by the Static Method
Determining the Ultimate Load by the Mechanism Method
Analysis of a Fixed-End Beam under Concentrated Load
Analysis of a Two-Span Beam with Concentrated Loads
Selection of Sizes for a Continuous Beam
Mechanism-Method Analysis of a Rectangular Portal Frame
Analysis of a Rectangular Portal Frame by the Static Method
Theorem of Composite Mechanisms
Analysis of an Unsymmetric Rectangular Portal Frame
Analysis of Gable Frame by Static Method
Theorem of Virtual Displacements
Gable-Frame Analysis by Using the Mechanism Method
Reduction in Plastic-Moment Capacity Caused by Axial Force
LOAD AND RESISTANCE FACTOR METHOD
Determining If a Given Beam Is Compact or Non-Compact
Determining Column Axial Shortening with a Specified Load
Determining the Compressive Strength of a Welded Section
Determining Beam Flexural Design Strength for Minor- and
Maj or- Axis Bending
Designing Web Stiffeners for Welded Beams
Determining the Design Moment and Shear Strength of a Built-up
Wide-Flanged Welded Beam Section
Finding the Lightest Section to Support a Specified Load